JP4388812B2 - Method and system for performing trick mode - Google Patents

Description

  The present invention relates generally to video systems, and more particularly to a video system for recording or playing back a digitally encoded video sequence.

  Digital television (DTV) and high-definition television (HDTV) are attracting attention in today's consumer electronics market. Many buyers of these types of televisions, such as digital video disc (DVD) recorders or players, can view previously recorded programs or record their favorite programs. Also purchase a digital video recorder or player. In particular, the combination of DTV (or HDTV) and a digital video recorder or player becomes an integrated part of the home theater entertainment system.

  Digital video recorders or players typically include a moving picture expert group (MPEG) decoder, which decodes multimedia data encoded in digital form stored on a disc that the recorder or player plays. When a digital video recorder or player is connected to a conventional (not DTV or non-HDTV) television, the digitally encoded signal is either displayed on the digital video recorder or Decoded by the MPEG decoder of the player. However, many DTVs include their own MPEG decoder. In this way, when a digital video recorder or player is connected to the DTV, the video signal read from the disc is remotely decoded by the DTV decoder. This system configuration is called a remote decoder configuration.

  However, there is an important problem in decoding a signal encoded in a digital format by a remote DTV decoder. In particular, it is very difficult to perform trick mode with this type of configuration. Trick mode is any video playback that does not play at normal speed or does not play in the forward direction. The trick mode may involve repeating a number of pictures in the video signal, such as during a slow motion trick mode. Since the bandwidth between the digital video recorder or player and the DTV is limited, the bit rate of the signal may exceed the maximum bit rate of the transfer channel by repeating the picture in the signal supplied to the DTV. This problem is exacerbated when the pictures are intra (I) pictures or predictive (P) pictures, since these pictures are generally encoded with more bits than the average picture. Become. Therefore, what is needed is a method and system for performing trick mode in a remote decoder configuration without exceeding the maximum bit rate limit and without increasing the cost or complexity of the system.

  The present invention relates to a method for performing a trick mode on a video signal comprising a plurality of sequentially scanned original images. The method selectively repeats at least one original image in response to a trick mode command to convert the video signal to a trick mode video signal, and at least one dummy predicted picture to the trick mode. Selectively inserting into the mode video signal. In one configuration, the method includes monitoring a trick mode video signal and, if the bit rate of the trick mode video signal exceeds a predetermined threshold, converting at least one dummy predicted picture to the trick mode video. Selectively inserting into the signal.

  In another configuration, each of the plurality of original images includes a display indicator, and the method may be used when the original image is repeated or when a dummy predicted picture is inserted into the trick mode video signal. In order to reflect the displayed display order, the method further includes the step of selectively changing a display indicator relating to at least a part of the plurality of original images. In one aspect, the display indicator is a time reference field. Further, each temporal reference field has an integer value, and the above step of selectively changing the temporal reference field for at least a portion of the plurality of original images is performed each time the original image is repeated and dummy Each time a predicted picture is inserted into the trick mode video signal, the integer value of the temporal reference field is incremented by one. In another aspect, each dummy predicted picture is predicted from a reference image. The reference image is an intra picture or a prediction picture. Further, at least a portion of the trick mode video signal is decoded by a remote decoder.

  The present invention also relates to a method for performing a trick mode on a video signal including a plurality of sequentially scanned original images. The method includes receiving a trick mode command and selectively inserting at least one dummy predicted picture into the video signal to form a trick mode video signal. In this particular method, each of the plurality of original images includes a display indicator, and the method reflects the intended display order each time the selectively inserting step is performed. Further comprising selectively changing a display indicator for at least a portion of the original image. Further, the display indicator is a time reference field, and each time reference field has an integer value. The step of selectively changing the temporal reference field for at least a portion of the plurality of original images includes incrementing the integer value of the temporal reference field by 1 each time the selective insertion step is performed. It is out. At least a part of the trick mode video signal is decoded by the remote decoder.

  The invention also relates to a method for decoding a signal encoded in digital form. The method includes transferring the digitally encoded signal to a remotely located decoder, and decoding at least a portion of the digitally encoded signal with the remotely located decoder. Is included. Here, the digitally encoded signal includes at least one dummy predicted picture or additional picture selected from the group comprising intra pictures, predicted pictures or bi-predictive pictures.

  The invention also relates to a system for performing a trick mode on a video signal comprising a plurality of sequentially scanned original images. The system includes a controller and a processor for reading data from a storage medium and outputting a video signal including a plurality of original images. In response to the trick mode command, the processor selectively repeats the at least one original image to convert the video signal to a trick mode video signal and converts the at least one dummy predicted picture to the trick mode video. Programmed for selective insertion into the signal. The system also includes appropriate software and circuitry to implement the method as described above.

  A system 100 for implementing various modern operating functions according to the configuration of the present invention is shown in the block diagram of FIG. However, the present invention is not limited to the specific system illustrated in FIG. 1, and may be implemented in any other system that can receive a digitally encoded signal and transfer the signal to a display device. The invention can be implemented. Furthermore, the system 100 is not limited to reading data from or writing data to any type of storage medium, and any storage capable of storing data encoded in digital form. Media can be used in the system 100.

  The system 100 includes a controller 110 that reads data from or writes data to the storage medium 112. The system 100 also includes a search engine 114, a microprocessor 116, and a display device 118. Search engine 114 includes appropriate software and circuitry to look for one or more specific types of pictures in the video signal read from storage medium 112. The microprocessor 116 may also be provided with a control circuit and a data interface to allow the operation of the controller 110 and the search engine 114 to be controlled. Appropriate software or firmware may be provided in the memory for conventional operations performed by the microprocessor 116. Further, a program routine for the microprocessor 116 may be provided in accordance with the configuration of the present invention.

  Note that all or part of the search engine 114 and the microprocessor 116 may be the video processor 120 within the scope of the present invention. Further, all or part of the controller 110, search engine 114, and microprocessor 116 may be the bitstream source 122 to the extent contemplated by the present invention. In one configuration, the display device 118 includes its own decoder (not shown). This decoder decodes all or part of any video signal read from the storage medium 112 and processed by the bitstream source 122. In this particular configuration, a decoder (not shown) at the bitstream source 122 typically does not decode the video signal read from the storage medium 112. This particular embodiment is called a remote decoder configuration. In addition, this invention is not limited to this structure, This invention can be implemented with another suitable system.

  In operation, the controller 110 reads from the storage medium 112 a video signal that includes a plurality of sequentially scanned original images. For convenience, the phrase “progressively scanned original pictures” is shortened to “original image” throughout this specification. In one configuration, when the microprocessor 116 receives a trick mode command, such as a slow motion command or a freeze command, the microprocessor 116 selectively repeats at least one original image to place the video signal in trick mode. Convert to video signal. Thus, the trick mode video signal includes the original image as well as a reproduction of the predetermined original image or the repeated original image.

  Further, during the trick mode command, the microprocessor 116 instructs the search engine 114 to look for one or more appropriate original images in the trick mode video signal. Once a suitable original image has been located, the search engine 114 signals the microprocessor 116, which generates a corresponding dummy P picture. The microprocessor 116 then selectively inserts at least one dummy P picture so that the dummy P picture is sent to the display device 118. In this configuration, the dummy P picture represents one or more repeated original images so that the dummy P picture is transferred to the display device 118 for display instead of the repeated original image. However, instead of repeating a picture in addition to inserting a dummy P picture, the microprocessor 116 simply inserts a dummy P picture into the video signal read from the storage medium 112 to form a trick mode video signal. can do.

  In another aspect of the invention, the microprocessor 116 monitors the bit rate of the trick mode video signal. If the bit rate of the trick mode video signal exceeds a predetermined threshold, the microprocessor 116, along with the search engine 114, performs the selective insertion process described above. In this insertion process, at least one dummy P picture is inserted into the trick mode video signal.

  In another configuration, the microprocessor 116 modifies a predetermined portion of the information contained in one or more of the original images included in the trick mode video signal to reflect the intended display order. To do. This changing process is executed depending on whether the original image is repeated or a dummy P picture is inserted into the video signal. The overall operation of the present invention is described in further detail below.

[Trick mode using dummy prediction picture]
FIG. 2 illustrates a flowchart 200 illustrating one way in which a trick mode using a dummy P picture is performed. In one configuration, the present invention is implemented in a remote decoder configuration. According to the present invention, the remote decoder configuration is such that at least a portion of a picture in a video signal is decoded by a decoder that is outside the bitstream source that is supplying the picture to the decoder and is not under control of the bitstream. It is an arbitrary system. By way of example, a bitstream source is an optical storage media player or recorder such as a digital video player or recorder that reads multimedia data from an optical storage medium and transfers this data to a digital television over a transfer channel. This digital television includes its own decoder. However, the present invention is not limited to this example or remote decoder configuration, and the present invention can be implemented in any other suitable system or configuration.

  In step 210, a video signal including a plurality of sequentially scanned original images is read. At step 212, a trick mode command is received. According to the present invention, the trick mode command is any command in which one or more original images are repeated, including a pause command, a freeze command, or a slow motion command. As indicated by decision block 213, it is determined whether at least one picture should be repeated. If it is determined that it should be repeated, at least one original image is selectively repeated, as shown in step 214. This selective repetition converts the video signal into a trick mode video signal.

  If the original image is not repeated (or retransmitted), the flowchart 200 proceeds to step 216 where one or more dummy P pictures are selectively inserted into the video signal to form a trick mode video signal. The In one configuration, a slow motion trick mode video signal is formed by inserting a dummy P picture. Further, when the original image is repeated according to step 214, one or more dummy P pictures are selectively inserted in the trick mode video signal including the repeated original image. Therefore, the trick mode video signal includes repeated original images, dummy P pictures, or combinations thereof.

  The dummy P picture is a picture predicted from a predetermined picture, and its motion vector and discrete cosine transform (DCT) coefficient are set to zero. Thus, the dummy P picture contains almost no information. The main purpose of a dummy P picture is to use a very small number of bits to duplicate or repeat a picture from which the dummy P picture is predicted. Accordingly, dummy P pictures are suitable for replacing a predetermined repeated original image when those original images are repeated with a trick mode video signal. In one configuration, the dummy P picture replaces one or more repeated original images so that the dummy P picture is transferred to the remote decoder rather than a predetermined repeated original image. This insertion and replacement process may help keep the bit rate of the trick mode video signal at a manageable level. This is because the bit rate of such video signals tends to increase because various original images, especially those composed of a large number of bits, can be repeated during trick mode commands. by.

  A picture for which a dummy P picture is predicted is generally called a reference image, and many original images may be reference images. The reference image is either an I picture or a P picture preceding the dummy P picture. When there is no picture predicted from the B picture and the original image is a B picture, there is no need to replace the copy or repetition of the original image. That is, when the original image is a B picture, the repeated B picture does not need to be replaced with a dummy P picture. However, repeating the B picture does not cause the bit rate of the trick mode video signal to exceed the upper limit of the transfer channel. This is because B pictures generally contain a relatively small amount of encoded data.

  The following example illustrates how a dummy P picture is inserted into a trick mode video signal. When a trick mode command, such as a freeze command, is received, at least one original image in the video signal is repeatedly sent to the display device, thereby generating a trick mode video signal. If this particular original image that is repeated is an I picture, it is likely that the bit rate of the trick mode video signal has exceeded the maximum bit rate of the transfer channel. This is because an I picture contains a relatively large amount of encoded data. By inserting the dummy P picture into the trick mode video signal so as to replace the I picture where the dummy P picture is repeated, the bit rate of the trick mode video signal is reduced. This is because the dummy P picture contains much less encoded data than the I picture. However, the invention is not limited to this particular example, and the invention can be implemented in other suitable trick modes.

  In another embodiment, each of the plurality of original images includes a display indicator. If the display indicators for these pictures are selectively changed, as determined at decision block 218, the display indicators for at least a portion of the plurality of original images are selectively changed, as shown at step 220. The

  In particular, these display indicators can be changed to reflect the intended display order of multiple original images when the original image is repeated and when a dummy P picture is inserted into a trick mode video signal. Can do. However, this process can be executed regardless of whether a dummy P picture is added during trick mode. Thus, the process of changing the display indicator can be performed during trick mode where the picture is simply repeated and no dummy P picture is inserted into the trick mode video signal. Returning to flowchart 200, if the display indicator is not changed, flowchart 200 proceeds to step 222.

  In one configuration, the display indicator is a time reference field. The temporal reference field is generally a 10-bit field and is arranged in a picture header of a picture encoded in a digital format. Some decoders rely on this temporal reference field to determine when a particular picture in the video signal is displayed relative to other pictures in the video signal. This field usually has an integer value, which indicates the order in which a picture is displayed. For example, a group of pictures (GOP) typically includes 15 pictures. The temporal reference field of the first picture in the GOP, ie the picture immediately after the GOP header, has the integer value 0. The temporal reference field of the next picture to be displayed has the integer value 1. Accordingly, the temporal reference field of each subsequent picture displayed is increased by one.

  However, when the original image is repeated or when a dummy P picture is inserted into the trick mode video signal, the display order according to the original image temporal reference field is no longer valid. Therefore, the integer value of the temporal reference field of the original image following the inserted dummy P picture or the repeated original image is changed to indicate an appropriate display order. For example, if the first picture in a GOP is sent to the display device and three corresponding dummy P pictures are also sent (this corresponds to a quarter slow motion playback), the reference image that is the original image ( The integer value of the temporal reference field (assuming the first picture in the displayed GOP) is kept as zero, the temporal reference field of the first dummy P picture is set to the integer value 1, and the second dummy P picture The time reference field is set to an integer value 2, and the time reference field of the third dummy P picture is set to an integer value 3. Further, the time reference field of the next original image to be displayed is changed from the original integer value 1 to the integer value 4.

  This process of increasing the integer value of the temporal reference field continues until the trick mode is canceled and the temporal reference field of the last picture in the last GOP acted on by the trick mode is changed. Once the next GOP is reached, the integer value of the temporal reference field of the first displayed picture in the new GOP is zero. Therefore, each time a dummy P picture is inserted into the trick mode video signal and each time the original image is repeated, the time reference fields of the inserted dummy P picture and the original image following the repeated original image respectively. The integer value of is incremented by 1 through the trick mode GOP to reflect the intended display order.

  The integer value of the time reference field has a maximum value of 1023. If the integer value of the time reference field of the picture that constitutes the GOP (the original image plus the dummy P picture and / or the repeated picture) reaches this value, and further pictures are added to the GOP, the time The reference field simply starts off and starts again at zero. As an example, if the freeze trick mode is activated and executed for an extended time, the integer value of the dummy P picture (or repeated picture) will eventually reach 1,023. Once this arrival occurs, for the GOP operated by the continued trick mode, the integer value of the temporal reference field of the next immediately displayed dummy P picture or repeated picture is set to zero.

  Of course, the present invention is not limited to using a time reference field, and any other suitable display indicator can be modified to change the intended display order in any of the previously described embodiments. Can be reflected. Further, the deviating value is not limited to 1,023, and other appropriate values can be used. Referring to flowchart 200, once the display indicator is selectively changed, the process proceeds to step 222. If the trick mode is to be continued, at step 213, the trick mode is continued. If the trick mode is not continued, at step 224, the process ends.

  With reference to FIG. 3, a flowchart 300 represents an alternative to the trick mode described in flowchart 200. As shown in flowchart 300, steps 310 to 314 are substantially the same as steps 210 to 214 in flowchart 200, and therefore description thereof is omitted here. The only difference is that the flowchart 300 proceeds to step 324 if the picture is not repeated, as determined at decision block 313. In step 316, the bit rate of the trick mode video signal is monitored during the trick mode command. It may be necessary to monitor the bit rate during trick mode. This is because some pictures in the video signal are repeated one or more times, which may increase the bit rate. In some cases, this increased bit rate may exceed the maximum bit rate allowed by the transfer channel transmitting the video signal. According to the present invention, the maximum bit rate allowed on this transfer channel is called a predetermined threshold.

  At decision block 318, it is determined whether the bit rate of the trick mode video signal exceeds this predetermined threshold. If the bit rate has not reached the predetermined threshold, the flowchart 300 proceeds to decision block 326. Referring to step 318, if the bit rate exceeds a predetermined threshold, a dummy P picture is inserted into the trick mode video signal, as shown in step 324. As shown in step 326 and step 328, the display indicator for at least a portion of the original image is changed. The procedure shown in steps 324, 326 and 328 is similar to the corresponding procedure illustrated in flowchart 200. Therefore, the dummy P picture is inserted based on monitoring the bit rate of the trick mode video signal, and is executed when the bit rate exceeds a predetermined threshold. If the trick mode is continued at decision block 320, the flowchart 300 is resumed at step 313. If the trick mode is not continued, the flowchart 300 ends at step 322.

  While the invention has been described in conjunction with the embodiments disclosed herein, the above description is intended to illustrate and limit the scope of the invention as defined in the claims. Please understand that it does not.

FIG. 2 is a block diagram of a system that executes trick mode using a dummy predicted picture according to the configuration of the present invention; It is a flowchart explaining the operation | movement which performs a trick mode using the dummy prediction picture based on the structure of this invention. 6 is a flowchart illustrating an alternative operation of executing a trick mode using a dummy predicted picture according to the configuration of the present invention.

Claims (16)

A method for performing trick mode on a video signal including a plurality of sequentially scanned original images, comprising:
Selectively repeating at least one original image in response to a trick mode command to convert the video signal to a trick mode video signal;
Possess a step of selectively inserting a predictive picture of at least one dummy video signal of the trick mode,
Each of the plurality of original images includes a display indicator that includes a temporal reference field, and the method is intended when the original image is repeated or when a dummy predicted picture is inserted into the trick mode video signal. Further comprising a step of selectively changing a display indicator for at least a part of the plurality of original images to reflect the displayed display order;
Each of the temporal reference fields has an integer value, and the step of selectively changing a display indicator for at least a portion of the plurality of original images is performed each time the original image is repeated and a dummy predicted picture is A method comprising the step of incrementing the integer value of the temporal reference field by one each time it is inserted into a mode video signal. Further comprising the step of monitoring the trick mode video signal;
The method of claim 1, wherein the step of selectively inserting at least one dummy prediction picture into the trick mode video signal is performed when a bit rate of the trick mode video signal exceeds a predetermined threshold. .   The method of claim 1, wherein each dummy prediction picture is predicted from a reference image. The method according to claim 3 , wherein the reference picture is an intra picture. The method according to claim 3 , wherein the reference picture is a prediction picture.   The method of claim 1, wherein at least a portion of the trick mode video signal is decoded by a remote decoder. A method of performing trick mode on a video signal including a plurality of sequentially scanned original images, each of the plurality of original images having a temporal reference field, the method comprising:
Receiving a trick mode command;
Selectively inserting at least one dummy prediction picture into the video signal to generate a trick mode video signal;
Each time the selectively inserting step is performed, selectively changing at least some temporal reference fields of the plurality of original images to reflect the intended display order; and The temporal reference field has an integer value, and the step of selectively changing the temporal reference field of at least a portion of the plurality of original images includes the temporal reference every time the selectively inserting step is performed. Increasing the integer value of the field by one. The method of claim 7 , wherein at least a portion of the trick mode video signal is decoded by a remote decoder. A system for performing a trick mode on a video signal including a plurality of sequentially scanned original images,
A controller for reading data from a storage medium and outputting a video signal including a plurality of original images;
And a processor,
In response to a trick mode command, selectively repeats at least one original image, converts the video signal to a trick mode video signal, and selectively inserts at least one dummy prediction picture into the trick mode video signal as for, the processor is programmed,
Each of the plurality of original images includes a display indicator including a temporal reference field;
The processor includes a display indicator for at least a portion of the plurality of original images to reflect the intended display order when the original image is repeated or a dummy predicted picture is inserted into the trick mode video signal. Is programmed to do the process of selectively changing
Each of the temporal reference fields has an integer value, and the process of selectively changing a display indicator for at least a portion of the plurality of original images is performed every time the original image is repeated and the dummy prediction picture is in trick mode video. A system that increments the integer value of the time reference field by one each time it is inserted into a signal Monitoring the trick mode video signal and selectively inserting at least one dummy prediction picture into the trick mode video signal if the bit rate of the trick mode video signal exceeds a predetermined threshold; The system of claim 9 , wherein the processor is further programmed. The system of claim 9 , wherein each dummy predicted picture is predicted from a reference image. The system according to claim 11 , wherein the reference image is an intra picture. The system of claim 11 , wherein the reference image is a predicted picture. The system of claim 9 , further comprising a remote decoder for remotely decoding at least a portion of the trick mode video signal. A system for performing a trick mode on a video signal including a plurality of sequentially scanned original images, each of the plurality of original images including a temporal reference field, the system comprising:
A controller for reading data from a storage medium and generating a video signal including the plurality of original images;
A processor,
Receive trick mode command,
In order to generate a trick mode video signal, at least one dummy predicted picture is selectively inserted into the video signal;
Each time the said processor executes insertable selection択的, to reflect the intended display order, the processor is programmed to selectively change the time reference field for at least a portion of the plurality of original images ,
Each of the time reference field has an integer value, the processor, each time said processor performs said selective insertion, by increasing by one the integer value of the reference field said time, the plurality of original A system that is further programmed to selectively change a temporal reference field for at least a portion of the image. 16. The system of claim 15 , further comprising a remote decoder that decodes at least a portion of the trick mode video signal.

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